+ defs["Altitude"] = {
+ "maximum" : 32767,
+ "minimum" : -32767,
+ "type" : "number",
+ "description" : "Indicates value of altitude.",
+ "format" : "double"
+};
+ defs["Angle"] = {
+ "maximum" : 360,
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Indicates value of angle."
+};
+ defs["Confidence"] = {
+ "maximum" : 100,
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Indicates value of confidence."
+};
+ defs["DateTime"] = {
+ "type" : "string",
+ "description" : "string with format \"date-time\" as defined in OpenAPI.",
+ "format" : "date-time"
+};
+ defs["DateTime_1"] = {
+ "type" : "string",
+ "description" : "string with format 'date-time' as defined in OpenAPI.",
+ "format" : "date-time"
+};
+ defs["DurationMs"] = {
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Unsigned integer identifying a period of time in units of milliseconds."
+};
+ defs["DurationSec"] = {
+ "type" : "integer",
+ "description" : "indicating a time in seconds."
+};
+ defs["Float"] = {
+ "type" : "number",
+ "description" : "string with format 'float' as defined in OpenAPI.",
+ "format" : "float"
+};
+ defs["InnerRadius"] = {
+ "maximum" : 327675,
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Indicates value of the inner radius.",
+ "format" : "int32"
+};
+ defs["Ipv4Addr"] = {
+ "type" : "string",
+ "description" : "string identifying a Ipv4 address formatted in the \"dotted decimal\" notation as defined in IETF RFC 1166."
+};
+ defs["Ipv4Addr_1"] = {
+ "pattern" : "^(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])$",
+ "type" : "string",
+ "description" : "String identifying a IPv4 address formatted in the 'dotted decimal' notation as defined in RFC 1166.\n",
+ "example" : "198.51.100.1"
+};
+ defs["Ipv6Addr"] = {
+ "type" : "string",
+ "description" : "string identifying a Ipv6 address formatted according to clause 4 in IETF RFC 5952. The mixed Ipv4 Ipv6 notation according to clause 5 of IETF RFC 5952 shall not be used."
+};
+ defs["Link"] = {
+ "type" : "string",
+ "description" : "string formatted according to IETF RFC 3986 identifying a referenced resource."
+};
+ defs["Orientation"] = {
+ "maximum" : 180,
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Indicates value of orientation angle."
+};
+ defs["Port"] = {
+ "maximum" : 65535,
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Unsigned integer with valid values between 0 and 65535."
+};
+ defs["SamplingRatio"] = {
+ "maximum" : 100,
+ "minimum" : 1,
+ "type" : "integer",
+ "description" : "Unsigned integer indicating Sampling Ratio (see clauses 4.15.1 of 3GPP TS 23.502), expressed in percent. \n"
+};
+ defs["SupportedFeatures"] = {
+ "pattern" : "^[A-Fa-f0-9]*$",
+ "type" : "string",
+ "description" : "A string used to indicate the features supported by an API that is used as defined in clause 6.6 in 3GPP TS 29.500. The string shall contain a bitmask indicating supported features in hexadecimal representation Each character in the string shall take a value of \"0\" to \"9\", \"a\" to \"f\" or \"A\" to \"F\" and shall represent the support of 4 features as described in table 5.2.2-3. The most significant character representing the highest-numbered features shall appear first in the string, and the character representing features 1 to 4 shall appear last in the string. The list of features and their numbering (starting with 1) are defined separately for each API. If the string contains a lower number of characters than there are defined features for an API, all features that would be represented by characters that are not present in the string are not supported.\n"
+};
+ defs["Uinteger"] = {
+ "minimum" : 0,
+ "type" : "integer",
+ "description" : "Unsigned Integer, i.e. only value 0 and integers above 0 are permissible."
+};
+ defs["Uncertainty"] = {
+ "minimum" : 0,
+ "type" : "number",
+ "description" : "Indicates value of uncertainty.",
+ "format" : "float"
+};
+ defs["Uri"] = {
+ "type" : "string",
+ "description" : "string providing an URI formatted according to IETF RFC 3986."
+};
+